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AD7606BSTZ

Hedy · Dasenic Sep 20,2024 4

AD7606BSTZ Introduction


The AD7606BSTZ is an analog-to-digital converter (ADC) produced by Analog Devices, designed for multi-channel, high-precision, high-speed signal acquisition applications. It is suitable for a variety of industrial and measurement scenarios.


Main features and benefits of AD7606BSTZ:


Synchronous sampling: The AD7606BSTZ can sample 8 analog input channels simultaneously, which is very suitable for multi-channel synchronous signal acquisition application scenarios, such as power system monitoring, vibration analysis, etc.

High anti-interference: The ADC integrates input protection circuits and can handle noise and interference signals from industrial environments well.

Low latency mode: The built-in anti-aliasing filter allows high-speed data acquisition without affecting signal quality, which is suitable for real-time signal processing.

Dual power supply: The analog part is powered by ±12V or ±15V, and the digital part is powered by 5V, which supports power requirements in different application environments.


AD7606BSTZ Application Areas:


Power monitoring: AD7606 can accurately measure voltage and current and is widely used for real-time monitoring of power systems.

Industrial automation: Used for high-precision signal acquisition of sensors and actuators to ensure the stable operation of industrial systems.

Vibration and noise testing: Suitable for occasions requiring high-precision and multi-channel data acquisition, such as vibration analyzers and acoustic test equipment.

Data acquisition system: Suitable for applications that require precise synchronous acquisition and fast data processing of multiple channels.


Specifications of the AD7606BSTZ


ParameterDetails
Number of channels8 independent analog input channels
Resolution6 bits
Sampling rateUp to 200 kSPS per channel
Input voltage range±10 V or ±5 V selectable
Built-in featuresLow-noise front-end amplifier, anti-aliasing filter
Data interfaceSPI or parallel interface
Analog power supply voltage±12 V or ±15 V
Digital power supply voltage5 V
Power consumptionTypical power consumption is about 300 mW (per channel)
Synchronous samplingSupports 8-channel simultaneous sampling
Anti-interferenceBuilt-in input protection, suitable for industrial noise environment
Low latency modeSupports low latency signal processing under high-speed acquisition
Package LQFP-64 (64-pin low profile quad flat package)

This table summarizes the key parameters of the AD7606BSTZ for quick reference.


AD7606BSTZ Project Video




This article describes the evaluation board for the AD7606B. 16-bit, 800kSPS bipolar input, simultaneous sampling ADC, 8-channel DAS





AD7606BSTZ Datasheet PDF

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AD7606BSTZ Datasheet


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AD7606BSTZ Similar Analog-to-Digital Converter (ADC)

The ADS8588H and ADS8568 are the closest alternatives to the AD7606BSTZ, offering similar 16-bit resolution and 8-channel simultaneous sampling capabilities, and supporting the same input voltage range.

The AD7607 offers slightly lower 14-bit resolution and is suitable for applications that require less accuracy.

The MAX1304 and LTC2358-16 also offer high-precision multichannel acquisition, but differ in some aspects, such as sampling rate or channel configuration.

Depending on the specific application needs, such as accuracy requirements, sampling rate, power consumption, and communication interface, you can choose between these similar devices.





FAQs about AD7606BSTZ


1.What is AD7606BSTZ?

A: The AD7606BSTZ is an 8-channel, 16-bit, simultaneous sampling analog-to-digital converter (ADC) produced by Analog Devices. It is suitable for multi-channel, high-precision, high-speed signal acquisition applications such as industrial automation, power monitoring, etc.


2. What is the sampling rate of the AD7606BSTZ?

A: The maximum sampling rate per channel of the AD7606BSTZ is 200 kSPS, which means that 200,000 data points can be collected per second. It supports simultaneous sampling of 8 channels, so it can sample at this rate on multiple channels at the same time.


3. What is the input voltage range supported by the AD7606BSTZ?

A: The AD7606BSTZ supports two input voltage ranges:

±10 V

±5 V The input voltage range can be selected by pin or configuration setting.


4. How does the AD7606BSTZ perform simultaneous sampling?

A: The AD7606BSTZ supports synchronous sampling of 8 analog input channels, that is, all channels can be collected at the same time. This is very useful for applications that require synchronous acquisition of multiple signals (such as power monitoring, vibration analysis, etc.).


5. Through what interface does the AD7606BSTZ communicate?

A: The AD7606BSTZ provides two communication interfaces:

Parallel interface: for high-speed data transmission.

SPI interface: for serial communication with a microcontroller or FPGA. SPI communication is usually used when fewer pin connections are required.


6. Does the AD7606BSTZ integrate an anti-aliasing filter?

A: Yes, the AD7606BSTZ integrates an anti-aliasing filter, which can effectively reduce the aliasing effect and ensure signal quality during high-speed acquisition.


7. What is the operating voltage of the AD7606BSTZ?

A: The AD7606BSTZ has dual power supply:

Analog power supply voltage: ±12 V or ±15 V.

Digital power supply voltage: 5 V.


8. What is the power consumption of the AD7606BSTZ?

A: The typical power consumption of the AD7606BSTZ is about 300 mW, which depends on the operating conditions and application settings. To save energy, the device also supports standby mode and power reduction mode.


9. What is the package of the AD7606BSTZ?

A: The AD7606BSTZ uses the LQFP-64 package, which is a 64-pin low-profile quad flat package that is easy to integrate into embedded systems.


10. How to set the input voltage range of the AD7606BSTZ?

A: The input voltage range of the AD7606BSTZ can be selected by the RANGE pin configuration. Pulling the RANGE pin high selects the ±10 V input range, and pulling it low selects the ±5 V input range.


11. Does the AD7606BSTZ support differential input?

A: The AD7606BSTZ supports single-ended input, but not true differential input. If differential signal acquisition is required, external circuitry may be required to perform single-ended to differential conversion.